#
# Copyright 2007 Zuza Software Foundation
#
# This file is part of translate.
#
# translate is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# translate is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, see <http://www.gnu.org/licenses/>.

"""Module to provide statistics and related functionality."""

from translate.filters import checks, pofilter
from translate.lang import factory

# calling classifyunits() in the constructor is probably not ideal.
# idea: have a property for .classification that calls it if necessary

# If we add units or change translations, statistics are out of date
# Compare with modules/Status.py in pootling that uses a bitmask to
# filter units

# Add support for reading and writing Pootle style .stats files

# Consider providing quickstats


class Statistics:
    """Manages statistics for storage objects."""

    def __init__(self, sourcelanguage="en", targetlanguage="en", checkerstyle=None):
        self.sourcelanguage = sourcelanguage
        self.targetlanguage = targetlanguage
        self.language = factory.getlanguage(self.sourcelanguage)
        #        self.init_checker(checkerstyle)

        self.classification = {}

    def init_checker(self, checkerstyle=None):
        checkerclasses = [
            checkerstyle or checks.StandardChecker,
            pofilter.StandardPOChecker,
        ]
        self.checker = pofilter.POTeeChecker(checkerclasses=checkerclasses)

    def fuzzy_units(self):
        """Return a list of fuzzy units."""
        if not self.classification:
            self.classifyunits()
        units = self.getunits()
        return [units[item] for item in self.classification["fuzzy"]]

    def fuzzy_unitcount(self):
        """Returns the number of fuzzy units."""
        return len(self.fuzzy_units())

    def translated_units(self):
        """Return a list of translated units."""
        if not self.classification:
            self.classifyunits()
        units = self.getunits()
        return [units[item] for item in self.classification["translated"]]

    def translated_unitcount(self):
        """Returns the number of translated units."""
        return len(self.translated_units())

    def untranslated_units(self):
        """Return a list of untranslated units."""
        if not self.classification:
            self.classifyunits()
        units = self.getunits()
        return [units[item] for item in self.classification["blank"]]

    def untranslated_unitcount(self):
        """Returns the number of untranslated units."""
        return len(self.untranslated_units())

    @staticmethod
    def getunits():
        """Returns a list of all units in this object."""
        return []

    @staticmethod
    def get_source_text(units):
        """Joins the unit source strings in a single string of text."""
        source_text = ""
        for unit in units:
            source_text += f"{unit.source}\n"
            plurals = getattr(unit.source, "strings", [])
            if plurals:
                source_text += "\n".join(plurals[1:])
        return source_text

    def wordcount(self, text):
        """Returns the number of words in the given text."""
        return len(self.language.words(text))

    def source_wordcount(self):
        """Returns the number of words in the source text."""
        source_text = self.get_source_text(self.getunits())
        return self.wordcount(source_text)

    def translated_wordcount(self):
        """Returns the number of translated words in this object."""
        text = self.get_source_text(self.translated_units())
        return self.wordcount(text)

    def untranslated_wordcount(self):
        """Returns the number of untranslated words in this object."""
        text = self.get_source_text(self.untranslated_units())
        return self.wordcount(text)

    @staticmethod
    def classifyunit(unit):
        """
        Returns a list of the classes that the unit belongs to.

        :param unit: the unit to classify
        """
        classes = ["total"]
        if unit.isfuzzy():
            classes.append("fuzzy")
        if unit.gettargetlen() == 0:
            classes.append("blank")
        if unit.istranslated():
            classes.append("translated")
        # TODO: decoding should not be done here
        #        checkresult = self.checker.run_filters(unit, unit.source, unit.target)
        checkresult = {}
        classes.extend(f"check-{checkname}" for checkname in checkresult)
        return classes

    def classifyunits(self):
        """
        Makes a dictionary of which units fall into which classifications.

        This method iterates over all units.
        """
        self.classification = {}
        self.classification["fuzzy"] = []
        self.classification["blank"] = []
        self.classification["translated"] = []
        self.classification["has-suggestion"] = []
        self.classification["total"] = []
        #        for checkname in self.checker.getfilters().keys():
        #            self.classification[f"check-{checkname}"] = []
        for item, unit in enumerate(self.unit_iter()):
            classes = self.classifyunit(unit)
            #            if self.basefile.getsuggestions(item):
            #                classes.append("has-suggestion")
            for classname in classes:
                if classname in self.classification:
                    self.classification[classname].append(item)
                else:
                    self.classification[classname] = item
        self.countwords()

    def countwords(self):
        """Counts the source and target words in each of the units."""
        self.sourcewordcounts = []
        self.targetwordcounts = []
        for unit in self.unit_iter():
            self.sourcewordcounts.append(
                [self.wordcount(text) for text in getattr(unit.source, "strings", [""])]
            )
            self.targetwordcounts.append(
                [self.wordcount(text) for text in getattr(unit.target, "strings", [""])]
            )

    def reclassifyunit(self, item):
        """
        Updates the classification of a unit in self.classification.

        :param item: an integer that is an index in .getunits().
        """
        unit = self.getunits()[item]
        self.sourcewordcounts[item] = [
            self.wordcount(text) for text in unit.source.strings
        ]
        self.targetwordcounts[item] = [
            self.wordcount(text) for text in unit.target.strings
        ]
        classes = self.classifyunit(unit)
        #        if self.basefile.getsuggestions(item):
        #            classes.append("has-suggestion")
        for classname, matchingitems in self.classification.items():
            if (classname in classes) != (item in matchingitems):
                if classname in classes:
                    matchingitems.append(item)
                else:
                    matchingitems.remove(item)
                matchingitems.sort()


#        self.savestats()
